Abstract
The discovery of penicillin by Fleming in 1928 was an historical milestone in the fight against infectious disease. Over the following fifty years, pharmaceutical companies discovered and developed over 100 antibiotics effective against a wide range of human pathogens. More recently, the dramatic rise in antibiotic-resistant pathogens has stimulated renewed efforts to identify, develop or redesign antibiotics active against these multi-resistant bacteria. This review focuses on such efforts directed at one large and highly diverse family of toxins, the bacteriocins, which hold great promise as the next generation of antimicrobials. The majority of bacteriocins differ from traditional antibiotics in one critical way: they have a relatively narrow killing spectrum and are, therefore, toxic only to bacteria closely related to the producing strain. Accordingly, they can be considered drugs” that target specific bacterial pathogens. In this review we focus on recent attempts to generate custom designed bacteriocins using genetic engineering techniques. These efforts illustrate the potential of genetically-modified bacteriocins to solve some of the most challenging problems in disease control.
Keywords:antibiotics,infectious diseases,bacterial resistance,antimicrobials,escherichia coli,lantibiotics
Current Pharmaceutical Design
Title: Genetically Engineered Bacteriocins and their Potential as the Next Generation of Antimicrobials
Volume: 11Issue: 8
Author(s):Osnat Gillor, Lisa M. Nigro and Margaret A. Riley
Affiliation:
Keywords:antibiotics,infectious diseases,bacterial resistance,antimicrobials,escherichia coli,lantibiotics
Abstract: The discovery of penicillin by Fleming in 1928 was an historical milestone in the fight against infectious disease. Over the following fifty years, pharmaceutical companies discovered and developed over 100 antibiotics effective against a wide range of human pathogens. More recently, the dramatic rise in antibiotic-resistant pathogens has stimulated renewed efforts to identify, develop or redesign antibiotics active against these multi-resistant bacteria. This review focuses on such efforts directed at one large and highly diverse family of toxins, the bacteriocins, which hold great promise as the next generation of antimicrobials. The majority of bacteriocins differ from traditional antibiotics in one critical way: they have a relatively narrow killing spectrum and are, therefore, toxic only to bacteria closely related to the producing strain. Accordingly, they can be considered drugs” that target specific bacterial pathogens. In this review we focus on recent attempts to generate custom designed bacteriocins using genetic engineering techniques. These efforts illustrate the potential of genetically-modified bacteriocins to solve some of the most challenging problems in disease control.
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Cite this article as:
Gillor Osnat, Nigro M. Lisa and Riley A. Margaret, Genetically Engineered Bacteriocins and their Potential as the Next Generation of Antimicrobials, Current Pharmaceutical Design 2005; 11 (8) .https://dx.doi.org/10.2174/1381612053381666
| DOI https://dx.doi.org/10.2174/1381612053381666 | Print ISSN 1381-6128 |
| Publisher Name Bentham Science Publisher | Online ISSN 1873-4286 |
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